Enhanced Calling Features

ABSTRACT

Systems, methods, apparatus, and computer program products are provided for scheduling and initiating calls. For example, a request for a prospective call between a caller and a callee can be received via a server. The prospective call can be electronically added to call lists associated respectively with the caller and the callee. In response to a determination that both the caller and the callee are available, a call between a caller device and a callee device can be automatically initiated.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.12/708,121, filed Feb. 18, 2010, which claims priority to U.S.Provisional Application No. 61/153,306, filed Feb. 18, 2009, both ofwhich are hereby incorporated herein in their entirety by reference.

BACKGROUND

With (a) the explosion of devices having the ability to communicatecalls and (b) the increasing demands of everyday life, a flexible needexists for scheduling and initiating calls with multiple participants.

BRIEF SUMMARY

In general, embodiments of the present invention provide systems,methods, apparatus, and computer program products for scheduling andinitiating calls.

In accordance with one aspect, a computer-implemented method forscheduling and initiating calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving a request for aprospective call, wherein the request for the prospective call (a)defines parameters for the prospective call and (b) identifiesparticipants of the prospective call comprising at least a caller and afirst callee; (2) identifying a call list associated with the firstcallee, wherein the call list identifies a plurality of prospectivecalls for the first callee; (3) generating a notification to the firstcallee that notifies the first callee of the request for the prospectivecall; and (4) in response to generating the notification to the firstcallee, receiving input (a) accepting or (b) rejecting the request forthe prospective call. The computer-implemented method may also comprise(5) in response to receiving input accepting the request for theprospective call, updating the call list of the first callee to reflectacceptance of the prospective call; (6) determining a current callstatus associated with the caller and a current call status associatedwith the first callee; and (7) in response to a determination that (a)the current call status associated with the caller indicates that thecaller is available and (b) the current call status associated with thefirst callee indicates that the first callee is available, automaticallyinitiating a call between at least a caller device and a first calleedevice.

In accordance with another aspect, a computer-implemented method forscheduling and initiating calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving a request for aprospective call, wherein the request for the prospective call (a)defines parameters for the prospective call and (b) identifiesparticipants of the prospective call comprising at least a caller and afirst callee; (2) identifying a call list associated with the firstcallee, wherein the call list identifies a plurality of prospectivecalls for the first callee; (3) receiving input accepting the requestfor the prospective call, updating the call list of the first callee toreflect acceptance of the prospective call; (4) determining a currentcall status associated with the caller and a current call statusassociated with the first callee; and (5) in response to a determinationthat (a) the current call status associated with the caller indicatesthat the caller is available and (b) the current call status associatedwith the first callee indicates that the first callee is available,automatically initiating a call between at least a caller device and afirst callee device.

In accordance with yet another aspect, a computer program product forscheduling and initiating calls is provided. The computer programproduct may comprise at least one computer-readable storage mediumhaving computer-readable program code portions stored therein, thecomputer-readable program code portions comprising executable portionsconfigured to (1) receive a request for a prospective call, wherein therequest for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a first callee; (2) identify a calllist associated with the first callee, wherein the call list identifiesa plurality of prospective calls for the first callee; and (3) generatea notification to the first callee that notifies the first callee of therequest for the prospective call. The computer-readable program codeportions may also comprise executable portions configured to (4) inresponse to generating the notification to the first callee, receiveinput (a) accepting or (b) rejecting the request for the prospectivecall; (5) in response to receiving input accepting the request for theprospective call, update the call list of the first callee to reflectacceptance of the prospective call; (6) determine a current call statusassociated with the caller and a current call status associated with thefirst callee; and (7) in response to a determination that (a) thecurrent call status associated with the caller indicates that the calleris available and (b) the current call status associated with the firstcallee indicates that the first callee is available, automaticallyinitiate a call between at least a caller device and a first calleedevice.

In accordance with another aspect, a computer program product forscheduling and initiating calls is provided. The computer programproduct may comprise at least one computer-readable storage mediumhaving computer-readable program code portions stored therein, thecomputer-readable program code portions comprising executable portionsconfigured to (1) receive a request for a prospective call, wherein therequest for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a first callee; (2) identify a calllist associated with the first callee, wherein the call list identifiesa plurality of prospective calls for the first callee; (3) receive inputaccepting the request for the prospective call, updating the call listof the first callee to reflect acceptance of the prospective call; (4)determine a current call status associated with the caller and a currentcall status associated with the first callee; and (5) in response to adetermination that (a) the current call status associated with thecaller indicates that the caller is available and (b) the current callstatus associated with the first callee indicates that the first calleeis available, automatically initiate a call between at least a callerdevice and a first callee device.

In accordance with still another aspect, a computer-implemented methodfor scheduling calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving, via a calleedevice, a first call originating from a caller device; (2) receivinginput, via the callee device, requesting delay of the first call; (3) inresponse to receiving input requesting delay of the first call,automatically generating and transmitting a request for a prospectivecall, wherein the request for the prospective call (a) definesparameters for the prospective call and (b) identifies participants ofthe prospective call comprising at least a caller and a callee; and (4)in response to a determination that (a) a current call status associatedwith the caller indicates that the caller is available and (b) a currentcall status associated with the callee indicates that the callee isavailable, receiving a second call from the caller device.

In accordance with another aspect, a computer-implemented method forscheduling calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving, via a calleedevice, a first call originating from a caller device; (2) receivinginput, via the callee device, requesting delay of the first call; and(3) in response to receiving input requesting delay of the first call,automatically generating and transmitting a request for a prospectivecall, wherein the request for the prospective call (a) definesparameters for the prospective call and (b) identifies participants ofthe prospective call comprising at least a caller and a callee.

In accordance with yet another aspect, a computer program product forscheduling calls is provided. The computer program product may compriseat least one computer-readable storage medium having computer-readableprogram code portions stored therein, the computer-readable program codeportions comprising executable portions configured to (1) receive afirst call originating from a caller device; (2) receive inputrequesting delay of the first call; and (3) in response to receivinginput requesting delay of the first call, automatically generate andtransmit a request for a prospective call, wherein the request for theprospective call (a) defines parameters for the prospective call and (b)identifies participants of the prospective call comprising at least acaller and a callee.

In accordance with still another aspect, a computer-implemented methodfor scheduling calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving, via a calleedevice, a first call originating from a caller device; (2) receivinginput, via the callee device, accepting the first call; (3) receivinginput, via the callee device, requesting continuation of the first call;(4) in response to receiving input requesting continuation of the firstcall, automatically generating and transmitting a request for aprospective call, wherein the request for the prospective call (a)defines parameters for the prospective call and (b) identifiesparticipants of the prospective call comprising at least a caller and acallee; and (5) in response to a determination that (a) a current callstatus associated with the caller indicates that the caller is availableand (b) a current call status associated with the callee indicates thatthe callee is available, receiving a second call from the caller device.

In accordance with still another aspect, a computer-implemented methodfor scheduling calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving, via a calleedevice, a first call originating from a caller device; (2) receivinginput, via the callee device, accepting the first call; (3) receivinginput, via the callee device, requesting continuation of the first call;and (4) in response to receiving input requesting continuation of thefirst call, automatically generating and transmitting a request for aprospective call, wherein the request for the prospective call (a)defines parameters for the prospective call and (b) identifiesparticipants of the prospective call comprising at least a caller and acallee.

In accordance with yet another aspect, a computer program product forscheduling calls is provided. The computer program product may compriseat least one computer-readable storage medium having computer-readableprogram code portions stored therein, the computer-readable program codeportions comprising executable portions configured to (1) receive afirst call originating from a caller device; (2) receive input acceptingthe first call; (3) receive input requesting continuation of the firstcall; and (4) an executable portion configured to, in response toreceiving input requesting continuation of the first call, automaticallygenerate and transmit a request for a prospective call, wherein therequest for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a callee.

In accordance with another aspect, a computer-implemented method forscheduling calls is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving input initiating afirst call with a callee device; (2) receiving input requestingcontinuation of the first call; and (3) in response to receiving inputrequesting continuation of the first call, automatically generating andtransmitting a request for a prospective call, wherein the request forthe prospective call (a) defines parameters for the prospective call and(b) identifies participants of the prospective call comprising at leasta caller and a callee.

In accordance with still another aspect, a computer program product forscheduling calls is provided. The computer program product may compriseat least one computer-readable storage medium having computer-readableprogram code portions stored therein, the computer-readable program codeportions comprising executable portions configured to (1) receive inputinitiating a first call with a callee device; (2) receive inputrequesting continuation of the first call; and (3) in response toreceiving input requesting continuation of the first call, automaticallygenerate and transmit a request for a prospective call, wherein therequest for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a callee.

In accordance with another aspect, a computer-implemented method forurgent/insistent communication is provided. In one embodiment, thecomputer-implemented method comprises (1) receiving input initiating acall with a callee device; (2) receiving a notification indicating that(a) the call was rejected by the callee device or (b) the current callstatus associated with the callee indicates that the callee isunavailable; and (3) in response to receiving the notificationindicating that (a) the call was rejected by the callee device or (b)the current call status associated with the callee indicates that thecallee is unavailable, automatically causing display of a notificationrequesting input as to whether the caller would like to (c) create anurgent/insistent message to the callee or (d) initiate anurgent/insistent call to the callee.

In accordance with still another aspect, a computer program product forurgent/insistent communication is provided. The computer program productmay comprise at least one computer-readable storage medium havingcomputer-readable program code portions stored therein, thecomputer-readable program code portions comprising executable portionsconfigured to (1) receive input initiating a call with a callee device;(2) receive a notification indicating that (a) the call was rejected bythe callee device or (b) the current call status associated with thecallee indicates that the callee is unavailable; and (3) in response toreceiving the notification indicating that (a) the call was rejected bythe callee device or (b) the current call status associated with thecallee indicates that the callee is unavailable, automatically causedisplay of a notification requesting input as to whether the callerwould like to (c) create an urgent/insistent message to the callee or(d) initiate an urgent/insistent call to the callee.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

Having thus described the invention in general terms, reference will nowbe made to the accompanying drawings, which are not necessarily drawn toscale, and wherein:

FIG. 1 is an overview of system that can be used to practice variousembodiments of the present invention.

FIG. 2 is an exemplary schematic diagram of a call server according toone embodiment of the present invention.

FIG. 3 is an exemplary schematic diagram of a mobile electronic deviceaccording to one embodiment of the present invention.

FIGS. 4-8 are flowcharts illustrating operations and processes that canbe used in accordance with various embodiments of the present invention.

FIGS. 9-19 are universal input and output produced by one embodiment ofthe invention.

DETAILED DESCRIPTION

Various embodiments of the present invention now will be described morefully hereinafter with reference to the accompanying drawings, in whichsome, but not all embodiments of the inventions are shown. Indeed, theseinventions may be embodied in many different forms and should not beconstrued as limited to the embodiments set forth herein; rather, theseembodiments are provided so that this disclosure will satisfy applicablelegal requirements. The term “or” is used herein in both the alternativeand conjunctive sense, unless otherwise indicated. Like numbers refer tolike elements throughout.

I. Methods, Apparatus, Systems, and Computer Program Products

As should be appreciated, various embodiments may be implemented invarious ways, including as methods, apparatus, systems, or computerprogram products. Accordingly, various embodiments may take the form ofan entirely hardware embodiment or an embodiment in which a processor isprogrammed to perform certain steps. Furthermore, variousimplementations may take the form of a computer program product on acomputer-readable storage medium having computer-readable programinstructions embodied in the storage medium. Any suitablecomputer-readable storage medium may be utilized including hard disks,CD-ROMs, optical storage devices, or magnetic storage devices.

Various embodiments are described below with reference to block diagramsand flowchart illustrations of methods, apparatus, systems, and computerprogram products. It should be understood that each block of the blockdiagrams and flowchart illustrations, respectively, may be implementedin part by computer program instructions, e.g., as logical steps oroperations executing on a processor in a computing system. Thesecomputer program instructions may be loaded onto a computer, such as aspecial purpose computer or other programmable data processing apparatusto produce a specifically-configured machine, such that the instructionswhich execute on the computer or other programmable data processingapparatus implement the functions specified in the flowchart block orblocks.

These computer program instructions may also be stored in acomputer-readable memory that can direct a computer or otherprogrammable data processing apparatus to function in a particularmanner, such that the instructions stored in the computer-readablememory produce an article of manufacture including computer-readableinstructions for implementing the functionality specified in theflowchart block or blocks. The computer program instructions may also beloaded onto a computer or other programmable data processing apparatusto cause a series of operational steps to be performed on the computeror other programmable apparatus to produce a computer-implementedprocess such that the instructions that execute on the computer or otherprogrammable apparatus provide operations for implementing the functionsspecified in the flowchart block or blocks.

Accordingly, blocks of the block diagrams and flowchart illustrationssupport various combinations for performing the specified functions,combinations of operations for performing the specified functions andprogram instructions for performing the specified functions. It shouldalso be understood that each block of the block diagrams and flowchartillustrations, and combinations of blocks in the block diagrams andflowchart illustrations, can be implemented by special purposehardware-based computer systems that perform the specified functions oroperations, or combinations of special purpose hardware and computerinstructions.

II. Exemplary System Architecture

FIG. 1 provides an illustration of a system that can be used inconjunction with various embodiments of the present invention. As shownin FIG. 1, the system may include one or more call servers 100, one ormore networks 105, one or more user computing devices 110, one or moreinteractive voice response systems 115, one or more telephones 120, andone or more mobile electronic devices 125. Each of the components of thesystem may be in electronic communication with, for example, one anotherover the same or different wireless or wired networks including, forexample, a wired or wireless Personal Area Network (“PAN”), Local AreaNetwork (“LAN”), Metropolitan Area Network (“MAN”), Wide Area Network(“WAN”), or the like. Additionally, while FIG. 1 illustrates certainsystem entities as separate, standalone entities, the variousembodiments are not limited to this particular architecture.

1. Exemplary Call Server

FIG. 2 provides a schematic of a call server 100 according to oneembodiment of the present invention. In general, the term “server” mayrefer to, for example, any computer, computing device, mobile phone,desktop, notebook or laptop, distributed system, server, blade, gateway,switch, or other processing device adapted to perform the functionsdescribed herein. As will be understood from this figure, in thisembodiment, the call server 100 includes a processor 205 thatcommunicates with other elements within the call server 100 via a systeminterface or bus 261. The processor 205 may be embodied in a number ofdifferent ways. For example, the processor 205 may be embodied asvarious processing means such as a processing element, a coprocessor, acontroller or various other processing devices including integratedcircuits such as, for example, an application specific integratedcircuit (“ASIC”), a field programmable gate array (“FPGA”), a hardwareaccelerator, or the like.

In an exemplary embodiment, the processor 205 may be configured toexecute instructions stored in the device memory or otherwise accessibleto the processor 205. As such, whether configured by hardware orsoftware methods, or by a combination thereof, the processor 205 mayrepresent an entity capable of performing operations according toembodiments of the present invention while configured accordingly. Adisplay device/input device 264 for receiving and displaying data mayalso be included in the call server 100. This display device/inputdevice 264 may be, for example, a keyboard or pointing device that isused in combination with a monitor. The call server 100 further includesmemory 263, which may include both read only memory (“ROM”) 265 andrandom access memory (“RAM”) 267. The call server's ROM 265 may be usedto store a basic input/output system (“BIOS”) 226 containing the basicroutines that help to transfer information to the different elementswithin the call server 100.

In addition, in one embodiment, the call server 100 includes at leastone storage device 268, such as a hard disk drive, a CD drive, and/or anoptical disk drive for storing information on various computer-readablemedia. The storage device(s) 268 and its associated computer-readablemedia may provide nonvolatile storage. The computer-readable mediadescribed above could be replaced by any other type of computer-readablemedia, such as embedded or removable multimedia memory cards (“MMCs”),secure digital (“SD”) memory cards, Memory Sticks, electrically erasableprogrammable read-only memory (“EEPROM”), flash memory, hard disk, orthe like. Additionally, each of these storage devices 268 may beconnected to the system bus 261 by an appropriate interface.

Furthermore, a number of program modules may be stored by the variousstorage devices 268 and/or within RAM 267. Such program modules mayinclude an operating system 280, a registration module 270, a listmodule 260, and a call initiation module 250. These modules may controlcertain aspects of the operation of the call server 100 with theassistance of the processor 205 and operating system 280—although theirfunctionality need not be modularized. In addition to the programmodules, the call server 100 may store or be connected to one or moredatabases (e.g., database 240) with one or more tables stored therein.

Also located within the call server 100, in one embodiment, is a networkinterface 274 for interfacing with various computing entities. Thiscommunication may be via the same or different wired or wirelessnetworks (or a combination of wired and wireless networks), as discussedabove. For instance, the communication may be executed using a wireddata transmission protocol, such as fiber distributed data interface(“FDDI”), digital subscriber line (“DSL”), Ethernet, asynchronoustransfer mode (“ATM”), frame relay, data over cable service interfacespecification (“DOCSIS”), or any other wired transmission protocol.Similarly, the call server 100 may be configured to communicate viawireless external communication networks using any of a variety ofprotocols, such as 802.11, general packet radio service (“GPRS”),wideband code division multiple access (“W-CDMA”), or any other wirelessprotocol.

It will be appreciated that one or more of the call server's 100components may be located remotely from other call server 100components. Furthermore, one or more of the components may be combinedand additional components performing functions described herein may beincluded in the call server 100.

2. Exemplary Mobile Electronic Device

With respect to the mobile electronic device 125 (“handheld”), FIG. 3provides an illustrative schematic representative of a handheld 125 thatcan be used in conjunction with the embodiments of the presentinvention. As shown in FIG. 3, the handheld 125 can include an antenna312, a transmitter 304, a receiver 306, and means, such as a processingdevice 308, e.g., a processor, controller, or the like, that providessignals to and receives signals from the transmitter 304 and receiver306, respectively.

The signals provided to and received from the transmitter 304 and thereceiver 306, respectively, may include signaling information inaccordance with an air interface standard of applicable wirelesssystems. In this regard, the handheld 125 may be capable of operatingwith one or more air interface standards, communication protocols,modulation types, and access types. More particularly, the handheld 125may operate in accordance with any of a number of second-generation(“2G”) communication protocols, third-generation (“3G”) communicationprotocols, fourth-generation (“4G”) communication protocols, and/or thelike. Further, for example, the handheld 125 may operate in accordancewith any of a number of different wireless networking techniques,including Bluetooth, IEEE 802.11 (“Wi-Fi”), 802.16 (“WiMAX”), ultrawideband (“UWB”), and/or the like. Via these communication standards andprotocols, the handheld 125 can communicate with the call server 100and/or various other entities (e.g., user computing devices 110 ortelephones 120). The handheld 125 can also download changes, add-ons,and updates, for instance, to its firmware, software (e.g., includingmodules), and operating system.

The handheld 125 may also comprise a user interface (that can include adisplay 316 coupled to a processing device 308) and/or a user inputinterface (coupled to the processing device 308). The user inputinterface can comprise any of a number of devices allowing the handheld125 to receive data, such as a keypad 318, a touch display, voice ormotion interfaces, or other input device. In embodiments including akeypad 318, the keypad 318 can include the conventional numeric (0-9)and related keys (#, *), and other keys used for operating the handheld125 and may include a full set of alphabetic keys or set of keys thatmay be activated to provide a full set of alphanumeric keys. In additionto providing input, the user input interface can be used, for example,to activate or deactivate certain functions, such as screen saversand/or sleep modes. Although not shown, the handheld 125 may alsoinclude a battery, such as a vibrating battery pack, for powering thevarious circuits that are required to operate the handheld 125, as wellas optionally providing mechanical vibration as a detectable output.

The handheld 125 can also include volatile memory 322 and/ornon-volatile memory 324, which can be embedded and/or may be removable.For example, the non-volatile memory may be embedded or removablemultimedia memory cards (“MMCs”), secure digital (“SD”) memory cards,Memory Sticks, EEPROM, flash memory, hard disk, or the like. The memorycan store any of a number of pieces or amount of information and dataused by the handheld 125 to implement the functions of the handheld 125.The memory can also store content, such as computer program code for anapplication and/or other computer programs.

3. Exemplary Interactive Voice Response System

As shown in FIG. 1, the system may include an interactive voice responsesystem (“IVR”). The IVR may include functionality similar to atraditional IVR, an automated attendant system, and/or a voice responsesystem. Generally, the IVR provides the telephone-based user with theability, for example, to communicate instructions and/or response viakeypads or voice commands.

4. Additional Exemplary System Components

The user computing devices 110 may each include one or more componentsthat are functionally similar to those of the call server 100. Forexample, in one embodiment, each of the user computing devices mayinclude: (1) a processor that communicates with other elements via asystem interface or bus; (2) a display device/input device; (3) memoryincluding both ROM and RAM; (4) a storage device; and (5) a networkinterface. These architectures are provided for exemplary purposes onlyand are not limiting to the various embodiments. The term “computingdevice” is used generically to refer to any computer, mobile phone,computing device, desktop, notebook or laptop, distributed system,server, gateway, switch, or other processing device adapted to performthe functions described herein.

III. Exemplary System Operation

Reference will now be made to FIGS. 4-19. FIGS. 4-8 provide flowchartsillustrating operations that may be performed to schedule and initiatecalls. A call may be, for example, a voice call or text-to-voice callvia (a) one or more user computing devices 110 and a telephone 120, (b)a user computing device 110 and a user computing device 110, (c) one ormore telephones 120 and one or more handhelds 125, (d) a telephone 120and a telephone 120, and/or (e) a variety of other combinations. FIGS.9-19 show universal input and output produced by one embodiment of theinvention.

1. User Registration

In one embodiment, as shown in Block 400 of FIG. 4, the call server 100may receive a request to register a user (e.g., such as via a useroperating a user computing device 110, a telephone 120 in communicationwith an IVR 115, or a handheld 125). For example, service providers suchas Verizon, AT&T, and Sprint may wish to provide embodiments of thepresent invention to their customers and require registration to do so.Similarly, retail entities such as Amazon.com and Lowe's may wish toprovide embodiments of the present invention to their customers andrequire registration as well. In certain embodiments, registration maybe part of creating a user account, e.g., signing up for wirelessservice with Verizon or creating an account with Amazon.com forpurchases. In embodiments that require registration, each user may beassociated with a user profile.

As shown in FIGS. 9 and 10, in various embodiments, a user profile mayinclude a variety of information about the associated user. For example,a user profile may include user information such as (a) username, (b)full name, and (c) password. A user profile may also include informationabout various communications means associated with a user such as (d)email address(es), (e) home phone number, (f) cellular phone number, (g)office phone number, (h) Skype ID, (i) Jabber ID, (j) MSN ID, (k) GoogleID, (l) Twitter ID, (m) system ID, and (n) social network IDs (e.g., aFacebook ID).

In one embodiment, a user profile also includes a current call statusthat provides an indication as to the user's availability to receiveand/or make calls. For example, a user may be available for (a) allcalls via all communications means, (b) calls from certain users via hercell phone, (c) unavailable, and/or (d) a variety of other combinations.Similarly, the user may define general parameters for the current callstatus via the user profile, such as indicating that she is generallyavailable or unavailable at certain times on certain days, e.g.,generally being available Monday through Friday from 9:00 am Eastern to9:00 pm Eastern. In various embodiments, the current call status may bemanually updated. For example, a user may manually update her currentcall status by accessing the call server 100 via a user computing device110, a telephone 120 in communication with an IVR 115, or a handheld125. Similarly, the user's current call status may be automaticallydetected and updated. For example, when a user makes a call, her currentcall status can be automatically identified as being unavailable andcommunicated to the call server 100. Correspondingly, when the usercompletes the call, her current call status can be automaticallyidentified as being available and communicated to the call server 100.As shown in FIG. 11, the call server 100 may store the user profile inassociation with the user's account, for example, using a database 240.Using the information stored in the various user profiles, the callserver 100 can, for example, identify, schedule, and initiate calls.

Although the foregoing describes a registration process, variousembodiments of the present invention contemplate implementations that donot require registration. In such implementations, a user may only needto be uniquely identified using, for example, an email address and/orphone number. A variety of approaches and techniques can be used touniquely identify users.

2. Call Lists

In one embodiment, each user (e.g., user profile) may be associated withone or more call lists that can be used to schedule and initiate calls.As shown in FIG. 12, a call list may include, for example, a list ofprospective calls that are to take place at a future time and/or date. Acall list may include prospective calls that (a) have been requested tobe made by or received by the user, but have not yet beenconfirmed/accepted, (b) have been confirmed/accepted to be made by orreceived by the user, and/or (c) have already been made by or receivedby the user.

The illustrative call list shown in FIG. 12 comprises five calls: fourprospective calls and one completed call. The first prospective call isbetween Alice and Marcus B. The call list indicates that the firstprospective call (a) has been confirmed/accepted, (b) has an identifiedcall subject, (c) has an expected duration of one hour, (d) is scheduledfor sometime tomorrow, and (e) will be held by calling Marcus' cellularphone. The second prospective call is between Alice and Alex T. The calllist indicates that the second prospective call (a) has beenconfirmed/accepted, (b) has an identified call subject, (c) has anexpected duration of 25 minutes, (d) is scheduled for sometime tomorrow,and (e) will be held by calling Alex's cellular phone. The thirdprospective call is between Alice and Johan L. The call list indicatesthat the third prospective call (a) has been confirmed/accepted, (b) hasan identified call subject, (c) has an expected duration of 10 minutes,(d) is scheduled for sometime next week, and (e) will be held by callingJohan's cellular phone. The fourth prospective call is also betweenAlice and Johan L. The call list indicates that the fourth prospectivecall (a) has been confirmed/accepted, (b) has an identified callsubject, (c) has an expected duration of 10 minutes, (d) is scheduledfor sometime next week, and (e) will be held by calling Johan's cellularphone. The call list also comprises information regarding a completedcall between Alice and Johan L. It should be noted that a call mayinclude more than two users, such as a conference call involving anynumber of users. For example, a call may include Alice, Marcus, Alex,and Johan.

In one embodiment, the call server 100 stores call lists associated withthe various users (e.g., user profiles) of the system. The call listsstored via the call server 100 may be accessed, updated, and retrievedby authorized users in a variety of ways. For example, a user may accessher call list by accessing the call server 100 via the operation of auser computing device 110, a telephone 120 in communication with an IVR115, or a handheld 125. Call lists may also be integrated and/orimported into a variety of applications, including an electroniccalendar that allows the user to view her prospective calls as part ofher calendar. Moreover, the call lists may be sortable by caller,callee, expected time duration, priority, call subject, communicationsmeans, and/or the like.

3. Requests and Updates for Prospective Calls

In one embodiment, to schedule a prospective call, the call server 100receives a request for a prospective call (Block 405). The request forthe prospective call may define parameters and identify participants ofthe prospective call. For example, as shown in FIGS. 13 and 14, therequest for the prospective call may include parameters such as (a) acall subject (e.g., Discuss UI of MyLucy), (b) an expected call duration(e.g., 20 minutes), (c) a suggested call date (e.g., Feb. 20, 2012), (d)a suggested call time (e.g., 11:30 am Eastern), (e) a suggested calltime window (e.g., between 1:00 pm and 5:00 pm Eastern), (f) acommunication means (e.g., Alex's cellular phone or Skype ID), (g) apriority (e.g., requesting completion of calls in a certain order basedon priority), (h) one or more conditions (e.g., call Alex only afterhaving completed the call with Johan), and/or the like. The parametersdefined in the request for the prospective call can be configured toaccommodate a variety of needs and/or preferences. The request for theprospective call may also identify the participants. The participantsmay be users (e.g., Alex T., Marcus B., and Alice) or commercialentities. For example, a commercial entity such as AT&T may respond to auser's customer service request based on the user's availability asidentified by her call list and/or current call status. Similarly,commercial entities desiring to market or sell a good or service to auser may send requests for prospective calls to current or prospectiveclients.

Requests for prospective calls received by the call server 100 can begenerated in a variety of ways—particular embodiments of which arediscussed in the following sections.

a. General Requests for Prospective Calls

In one embodiment, a request for a prospective call can be generated bya user creating a request with the aid of a user computing device 110 ora handheld 125. For instance, as shown in FIGS. 13 and 14, a user canpopulate a form associated with requests for prospective calls. Inparticular, a user operating a user computing device 110 or a handheld125 can populate the form via a web interface or an application beingexecuted on a handheld 125. For example, this functionality may beincluded as a feature in Google Voice, Skype, or chat applications.After populating the form, in one embodiment, the request for theprospective call is transmitted to the call server 100. Alternatively orin addition to, a user can provide the information necessary to generatea request for a prospective call using a telephone 120 in communicationwith an IVR 115. Thus, for instance, the user can navigate the IVR 115menu and selections via voice input and/or keyed input to provideinformation sufficient to generate a request for a prospective call.After receiving the necessary information, in one embodiment, the IVR115 transmits the request for the prospective call to the call server100.

b. Incoming Call Delays

In one embodiment, a request for a prospective call can be generated inresponse to a user (e.g., callee) delaying an incoming call (e.g.,requesting to delay the call until a future time and/or date). Forexample, as indicated in Block 700 of FIG. 7, a callee device (e.g.,user computing device 110, telephone 120, or handheld 125) can receive acall originating from a caller device (e.g., user computing device 110,telephone 120, or handheld 125). In response to the callee devicereceiving the call, the callee may have the option to the delay thecall. For example, as shown in FIGS. 18 and 19, in response to receivinga call, the callee device may provide the callee with options that mayinclude (a) accepting the call, (b) rejecting/ignoring the call, and/or(b) requesting delay of the call. Generally, requesting delay of thecall may refer to requesting postponement of the call to a future timeand/or date (Block 705). In response to receiving input requesting delayof the call, the callee device (e.g., user computing device 110,telephone 120 in communication with an IVR 115, or handheld 125) mayautomatically generate and transmit a request for a prospective call(e.g., delaying the call) to the call server 100 (Block 710). Theautomatically generated request for the prospective call may includedefault parameters, such as time parameters delaying the call for 20minutes, 2 hours, or 3 days from the time of the request for the delay.A variety of other default parameters may also be configured to adapt toa variety of needs and preferences.

Operatively, a callee receiving calls may provide input requesting delayof a call in a variety of ways. In one embodiment shown in FIG. 18, acallee receiving an incoming call via a user computing device 110 mayprovide input requesting delay of the incoming call by clicking a linkor selecting a corresponding delay option via an interface. In responseto the appropriate input, the user computing device 110 can generate andtransmit the request for the prospective call—requesting to delay thecall. In another embodiment shown in FIG. 19, a user receiving incomingcalls via a handheld 125 may provide input requesting delay of theincoming call by selecting or depressing a soft or hard key on thehandheld 125 corresponding to the option for requesting delay. Inresponse to the appropriate input, the handheld 125 can generate andtransmit the request for the prospective call. Although not shown, inyet another embodiment, a user receiving incoming calls via a telephone120 in communication with an IVR 115 may also delay calls. For example,a user operating a telephone 120 in communication with an IVR 115 mayreceive an incoming call that is preceded by a voice prompt asking theuser whether she wishes to delay the call, such as press (a) one toaccept the call, (b) two to reject the call, or (b) three to delay thecall. In response to the appropriate input, the IVR 115 can generate andtransmit the request for the prospective call.

In one embodiment, requests for prospective calls generated andtransmitted as a result of delaying incoming calls may or may notrequire acceptance of the requests to be added to the caller's andcallee's respective call lists. For example, the parameters associatedwith the caller's profile may provide for the automatic inclusion ofdelayed calls to her call list. Similarly, the parameters associatedwith the caller's profile may require acceptance of such requests forinclusion of delayed calls to her call list. A variety of otherparameters may also be configured to adapt to a variety of needs andpreferences.

c. Continuations of Calls

In one embodiment, a request for a prospective call can be generated inresponse to a user, during a call, requesting continuation of the callat a future time and/or date. For example, as indicated in Block 800 ofFIG. 8, a caller device (e.g., user computing device 110, telephone 120,or handheld 125) receives input initiating a call to a callee device(e.g., user computing device 110, telephone 120, or handheld 125). Asindicated in Block 805, the callee device then receives the calloriginating from a caller device. In response to receiving the call, thecallee device receives input accepting the call (Block 807). At somepoint during or after the call, the callee or caller (e.g., user) maydesire to continue the call at a future time and/or date. For example,another matter may require the caller's attention or the call may havetaken longer than the callee anticipated. Thus, a user (e.g., caller orcallee) may input a request to the corresponding device to continue thecall. In response, the appropriate device (e.g., caller device or calleedevice) receives input from the user requesting continuation of the call(Block 810), and, in response, automatically generates and transmits arequest for a prospective call to the call server 100 (Block815)—requesting continuation of the call at a future time and/or date.The automatically generated request for the prospective call may includedefault parameters, such as time parameters continuing the call in 20minutes, 2 hours, or 3 days from the time of the request for thecontinuation. A variety of other default parameters may also beconfigured to adapt to a variety of needs and preferences.

Operatively, a user may provide input requesting continuation of a callin a variety of ways. In one embodiment (not shown), a user connected toa call via a user computing device 110 may provide input requestingcontinuation of the call by clicking a link or selecting a correspondingcontinuation option via an interface. In response to the appropriateinput, the user computing device 110 can generate and transmit therequest for the prospective call (e.g., requesting continuation of thecall at a future time and/or date). In another embodiment (not shown), auser connected to a call via a handheld 125 may provide input requestingcontinuation of the call by selecting or depressing a soft or hard keyon the handheld 125 corresponding to the option for requestingcontinuation. In response to the appropriate input, the handheld 125 cangenerate and transmit the request for the prospective call. Although notshown, in yet another embodiment, a user connected to a call via atelephone 120 in communication with an IVR 115 may also continue calls.For example, a user operating a telephone 120 in communication with anIVR 115 may depress the pound key, for example, to input a requestduring or after the call to continue the call at a future time and/ordate. In response to the appropriate input, the IVR 115 can generate andtransmit the request for the prospective call.

In one embodiment, requests for prospective calls generated andtransmitted as a result of continuing calls may or may not requireacceptance of the request to be added to the caller's and callee'srespective call lists. For example, the parameters associated with thecaller's profile may provide for the automatic inclusion of continuedcalls to her call list. Similarly, the parameters associated with thecaller's profile may require acceptance of such requests for inclusionof continued calls to her call list. A variety of other parameters mayalso be configured to adapt to a variety of needs and preferences.

d. Notifications of Requests for Prospective Calls

In one embodiment, after receiving a request for a prospective call, thecall server 100 identifies the call lists associated with the requestfor the prospective call (Block 410). For example, the call server 100identifies the caller and the callee(s) (e.g., via their user profilesor other uniquely identifiable attributes) associated with the request.The call server 100 then updates the corresponding call lists to reflectthe request for the prospective call.

In one embodiment, the call server 100 may also generate a notificationto the callee(s) associated with the request (Block 415). For example,the call server 100 may generate and transmit a Short Message Service(“SMS”) notification, a Multimedia Message Service (“MMS”) notification,or an email notification to the callees to inform them of the receivedrequest. In a particular embodiment, as shown in FIGS. 15-17, the callserver 100 may generate and transmit a notification to or via anapplication on the user's computing device 110 or handheld 125. Inresponse to the notification, the callees (e.g., operating a usercomputing device 110, a telephone 120 in communication with an IVR 115,or a handheld 125) may accept, reject, delay, or change the request forthe prospective call (Block 420). In turn, the call server 100 receivesthe acceptance, rejection, delay, or change of the request for theprospective call and updates the corresponding call lists accordingly(Blocks 500, 505, 510 of FIG. 5). For instance, if the callees acceptthe request for the prospective call, the call server 100 updates thecorresponding call lists to include the prospective call and indicatesthat the prospective call has been accepted. Similarly, if one or morecallees reject, change, or delay the request, the caller and remainingcallees may be notified of the rejection, change, or delay and thecorresponding call lists may be updated accordingly. It should be notedthat not all participants to a request for a prospective call needaccept for the prospective call to occur. In fact, a prospective callmay only require a caller and a single callee.

In one embodiment, after a prospective call has been accepted andincluded on a user's call list, updates and/or changes to theprospective call can be made. For example, a user (e.g., a caller orcallee operating a user computing device 110, a telephone 120 incommunication with an IVR 115, or a handheld 125) may add additionalcall subjects or participants to the prospective call. Further, a usermay change the suggested call time or suggested call time window for theprospective call, such as requesting the call take place on Wednesdaybetween 4:00 pm and 7:00 pm Eastern instead of Monday between 4:00 pmand 7:00 pm Eastern. Correspondingly, a callee may decide to change theprospective call parameters by indicating that she will initiate thecall using one of her associated communication means—instead of thecaller initiating the call. That is, a callee for a prospective call canchange her status to a caller (and identify the use of a differentcommunication means), and a caller likewise can become a callee. Basedon the needs and preferences of the users, the changes and/or updatesmay be automatically updated on the corresponding call lists or mayrequire confirmation/acceptance before reflecting the update.

4. Automatic Initiation of Calls

In one embodiment, once a prospective call has been accepted, the callserver 100 can determine when the participants of the prospective callare available and automatically initiate a call. For example, asdiscussed, each user (e.g., caller/callee) has a current call statusthat is stored by the call server 100 (Block 515). Thus, for instance,when the call server 100 determines that (a) the current call statusassociated with the caller indicates that the caller is available and(b) the current call status associated with the callee indicates thatthe callee is available (Blocks 520, 525), the call server 100 canautomatically initiate a call between them (Block 605). Based on userpreferences, the call may originate from a caller device (e.g., usercomputing device 110, telephone 120, or handheld 125), a callee device(e.g., user computing device 110, telephone 120, or handheld 125), orthe call server 100.

As indicated previously, the current call status may be manually orautomatically updated. For example, a user may manually update hercurrent call status by accessing the call server 100 via a usercomputing device 110, a telephone 120 in communication with an IVR 115,or a handheld 125. Similarly, the user's current call status may beautomatically detected and updated. For example, when a user makes acall, her current call status can be automatically identified as beingunavailable and communicated to the call server 100. Correspondingly,when the user completes the call, her current call status can beautomatically identified as being available and communicated to the callserver 100.

In addition to determining the current call status of the participantsof the prospective call, the call server 100 can initiate the call inaccordance with the parameters defined in the request for theprospective call. For example, the call server 100 can determine if thecurrent call status associated with the participants indicates that theyare available at the suggested call time, e.g., determining if theparticipants are available at 5:00 pm Eastern on Feb. 11, 2012 andinitiating the call accordingly. Similarly, the call server 100 candetermine if the current call status associated with the participantsindicates that they are available within the suggested call time window,e.g., determining if the participants are available at some time during1:00 pm and 5:00 pm Eastern on Feb. 11, 2012 and initiating the callaccordingly. With regard to the suggested call time window, the callserver 100 may determine the participants availability at periodicintervals during the suggested call time window—such as every 5 seconds,3 minutes, or 9 minutes. The call server 100 may also initiate the callfor specific devices associated with the corresponding user profilesand/or defined in the parameters for the prospective call. For example,the call server 100 may initiate the call from Alice's home phone toAlex's cellular phone, and Marcus' Skype ID.

In one embodiment, prior to initiating a call as indicated in Block 600of FIG. 6, the call server 100 may generate a notification to the callerto confirm that the caller desires to proceed with the call. In additionto generating the notification, the call server 100 may require inputindicating that the caller wishes to proceed with the call beforeautomatically initiating the call. In various embodiments, this mayprovide the caller with the ability to confirm that she is actuallyready for the call before the call is initiated. In another embodiment,the call server 100 may generate a notification to the caller and thecallee(s) to confirm that all participants desire to proceed with thecall. In addition to generating the notification, the call server 100may require input indicating that the participants wish to proceed withthe call before automatically initiating the call. In variousembodiments, the notification(s) may be viewable using, for example, auser computing device 110 or handheld 125. Similarly, the notificationmay be provided to a user via telephone 120 with the assistance of anIVR 115, e.g., please press 2 if you would like to initiate the call toAlex and Marcus now or press 3 to delay the call. A variety of othertechniques and approaches may also be used.

5. Call Subject

As discussed above, one embodiment of the present invention provides forcontextualized calls. For example, a user (e.g., operating a usercomputing device 110, a telephone 120 in communication with an IVR 115,or a handheld 125) may enter the subject of a call that will bedisplayed to a callee when or as the call is connected. For example,using (a) unstructured supplementary service data (“USSD”) capabilitiesof phones, (b) web technologies, (c) caller identification-relatedtechnologies, or (d) other solutions (e.g., email, chat services,SMS/MMS messaging, and/or the like), users can input the subject of acall via, for example, a user computing device 110, a telephone 120 incommunication with an IVR 115, or a handheld 125. With the call subjectinput, the call subject can be displayed or otherwise communicated tothe callee (e.g., via a callee device) to aid the callee in determiningwhether to accept, reject, or delay the call.

In one embodiment, when or as the call is connected, the call subjectmay be displayed via (a) a screen or window on a user computing device110 or handheld 125 or (b) a telephone 120 display as part of calleridentification-related information. Similarly, the call subject may becommunicated to a callee via telephone 120 with the assistance of an IVR115, e.g., Alex is calling to discuss the new MyLucy implementation,please press (a) 2 to accept the call from Alex, (b) 3 to reject thecall, or (c) 4 to delay the call. In various embodiments, this mayprovide the callee with information as to the importance of the call andaid the callee in determining whether to accept, reject, or delay thecall.

6. Urgent/Insistent Messages and Calls

In one embodiment, even if (a) a callee rejects a call or (b) a currentcall status associated with the callee indicates that the callee isunavailable, a caller may still need to communicate importantinformation (e.g., via calls or messages) to the callee. For example,consider a scenario in which a user (e.g., callee) is in a meeting andhas set her current call status to unavailable or rejects an incomingcall, but a caller has information that is important for the callee'smeeting. In such a scenario, the caller may still need to communicatewith the callee despite the callee, for example, rejecting the call. Inone embodiment, to communicate with the callee, the caller can beautomatically provided with the option to (a) generate and transmit anurgent/insistent message to the callee or (b) initiate anurgent/insistent call to the callee. In certain embodiments, onlycertain callers (e.g., users) with urgent/insistent rights provided bythe caller can be provided with the urgent/insistent message/calloptions when calling the callee. For example, each user can define auser group of participants (or individually identify participants) thatwill have the ability/right to communicate urgent/insistent messages orcalls to her in the event she is unavailable or otherwise rejects acall. In other words, the user can limit the participants who have theability to communicate urgent/insistent messages and calls.

Operatively, in one embodiment, as shown in Block 715 of FIG. 7, acallee device (e.g., user computing device 110, telephone 120, orhandheld 125) can initiate a call to a caller device (e.g., usercomputing device 110, telephone 120, or handheld 125). If the calleerejects the call, the caller device is notified of the call rejection.In response to the call rejection, the caller device can automaticallycause display of (or otherwise communicate) an option for the caller togenerate and transmit an urgent/insistent message to the callee. Forexample, the caller device may automatically generate a notification tothe caller about the option to generate and transmit an urgent/insistentmessage to the callee as a result of the call rejection (Block 720). Asdiscussed, this may require the caller to have previously been grantedurgent/insistent message/call rights by the callee. The notification maybe viewable using, for example, a user computing device 110 or handheld125. Similarly, the notification may be provided to the caller viatelephone 120 with the assistance of an IVR 115, e.g., Johan L rejectedthe call, please press 2 if you would like to send an urgent/insistentmessage to Johan L. In response to input indicating that the callerwould like to communicate an urgent/insistent message to the callee, thecaller device may provide, for example, (a) a form for the caller topopulate using the user computing device 110 or handheld 125 or (b) aninteractive menu for the caller to navigate using a telephone 120 incommunication with an IVR 115 (Block 730). Upon receiving input from thecaller requesting the urgent/insistent message, the caller device cantransmit the message to a callee device (Block 730). The message may betransmitted to one or more callee devices and/or accounts (e.g., GoogleID, cellular phone number, etc.) identified as the callee'scommunications means in her profile. For example, the message may becommunicated near simultaneously via SMS/MMS to the callee's cellularphone and via email to her Google ID.

Operatively, in another embodiment, as shown in Block 715 of FIG. 7, acallee device (e.g., user computing device 110, telephone 120, orhandheld 125) can initiate a call to a caller device (e.g., usercomputing device 110, telephone 120, or handheld 125). If the currentcall status associated with the callee indicates that the callee isunavailable, the caller device is notified of the callee'sunavailability. In response to the unavailability of the callee, thecaller device can automatically cause display of (or otherwisecommunicate) an option for the caller to initiate an urgent/insistentcall to the callee. For example, the caller device may automaticallygenerate a notification to the caller about the option to initiate anurgent/insistent call to the callee as a result of the unavailability ofthe callee (Block 720). As discussed, this may require the caller tohave previously been granted urgent/insistent message/call rights by thecallee. In one embodiment, the notification may be viewable using, forexample, a user computing device 110 or handheld 125. In anotherembodiment, the notification may be, for example, a specific ring, ringtone, or vibration pattern on a handheld 125. Similarly, thenotification may be provided to the caller via telephone 120 with theassistance of an IVR 115, e.g., Johan L is unavailable, please press 2if you would like to initiate an urgent/insistent call to Johan L. Inresponse to input indicating that the caller would like to initiate anurgent/insistent call to the callee, the caller device can initiate anurgent/insistent call to the callee device that will be connected to thecallee device despite the current call status associated with the calleeindicating that the callee is unavailable. In various embodiments, thisapproach may enable a callee who is not accepting normal incoming callsto receive urgent/insistent calls.

IV. Conclusion

Many modifications and other embodiments of the inventions set forthherein will come to mind to one skilled in the art to which theseinventions pertain having the benefit of the teachings presented in theforegoing descriptions and the associated drawings. Therefore, it is tobe understood that the inventions are not to be limited to the specificembodiments disclosed and that modifications and other embodiments areintended to be included within the scope of the appended claims.Although specific terms are employed herein, they are used in a genericand descriptive sense only and not for purposes of limitation.

1. A computer-implemented method for scheduling, thecomputer-implemented method comprising: receiving, via a callee device,a first call originating from a caller device; receiving input, via thecallee device, requesting delay of the first call; in response toreceiving input requesting delay of the first call, automaticallygenerating and transmitting a request for a prospective call, whereinthe request for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a callee; and in response to adetermination that (a) a current call status associated with the callerindicates that the caller is available and (b) a current call statusassociated with the callee indicates that the callee is available,receiving a second call from the caller device.
 2. Acomputer-implemented method for scheduling, the computer-implementedmethod comprising: receiving, via a callee device, a first calloriginating from a caller device; receiving input, via the calleedevice, requesting delay of the first call; and in response to receivinginput requesting delay of the first call, automatically generating andtransmitting a request for a prospective call, wherein the request forthe prospective call (a) defines parameters for the prospective call and(b) identifies participants of the prospective call comprising at leasta caller and a callee.
 3. The computer-implemented method of claim 2further comprising, in response to a determination that (a) a currentcall status associated with the caller indicates that the caller isavailable and (b) a current call status associated with the calleeindicates that the callee is available, automatically initiating asecond call from the callee device.
 4. The computer-implemented methodof claim 2 further comprising, in response to a determination that (a) acurrent call status associated with the caller indicates that the calleris available and (b) a current call status associated with the calleeindicates that the callee is available, receiving a second call from thecaller device.
 5. The computer-implemented method of claim 4, whereinthe parameters for the prospective call are selected from the groupconsisting of (a) a suggested call time and (b) a suggested call timewindow.
 6. The computer-implemented method of claim 5, whereindetermining the current call status associated with the caller and thecurrent call status associated with the callee is executed substantiallywithin the suggested call time window.
 7. The computer-implementedmethod of claim 2, wherein receiving the first call originating from thecaller device further comprises causing display of a call subject.
 8. Acomputer program product for scheduling and initiating calls, thecomputer program product comprising at least one computer-readablestorage medium having computer-readable program code portions storedtherein, the computer-readable program code portions comprising: anexecutable portion configured to receive a first call originating from acaller device; an executable portion configured to receive inputrequesting delay of the first call; and an executable portion configuredto, in response to receiving input requesting delay of the first call,automatically generate and transmit a request for a prospective call,wherein the request for the prospective call (a) defines parameters forthe prospective call and (b) identifies participants of the prospectivecall comprising at least a caller and a callee.
 9. The computer programproduct of claim 8 further comprising an executable portion configuredto, in response to a determination that (a) a current call statusassociated with the caller indicates that the caller is available and(b) a current call status associated with the callee indicates that thecallee is available, automatically initiate a second call from thecallee device.
 10. The computer program product of claim 8 furthercomprising an executable portion configured to, in response to adetermination that (a) a current call status associated with the callerindicates that the caller is available and (b) a current call statusassociated with the callee indicates that the callee is available,receive a second call from the caller device.
 11. The computer programproduct of claim 10, wherein the parameters for the prospective call areselected from the group consisting of (a) a suggested call time and (b)a suggested call time window.
 12. The computer program product of claim8, wherein determining the current call status associated with thecaller and the current call status associated with the callee isexecuted substantially within the suggested call time window.
 13. Thecomputer program product of claim 8, wherein receiving the first calloriginating from the caller device further comprises causing display ofa call subject.
 14. A computer-implemented method for scheduling, thecomputer-implemented method comprising: receiving, via a callee device,a first call originating from a caller device; receiving input, via thecallee device, accepting the first call; receiving input, via the calleedevice, requesting continuation of the first call; in response toreceiving input requesting continuation of the first call, automaticallygenerating and transmitting a request for a prospective call, whereinthe request for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a callee; and in response to adetermination that (a) a current call status associated with the callerindicates that the caller is available and (b) a current call statusassociated with the callee indicates that the callee is available,receiving a second call from the caller device.
 15. Acomputer-implemented method for scheduling, the computer-implementedmethod comprising: receiving, via a callee device, a first calloriginating from a caller device; receiving input, via the calleedevice, accepting the first call; receiving input, via the calleedevice, requesting continuation of the first call; and in response toreceiving input requesting continuation of the first call, automaticallygenerating and transmitting a request for a prospective call, whereinthe request for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a callee.
 16. The computer-implementedmethod of claim 15 further comprising, in response to a determinationthat (a) a current call status associated with the caller indicates thatthe caller is available and (b) a current call status associated withthe callee indicates that the callee is available, automaticallyinitiating a second call from the callee device.
 17. Thecomputer-implemented method of claim 15 further comprising, in responseto a determination that (a) a current call status associated with thecaller indicates that the caller is available and (b) a current callstatus associated with the callee indicates that the callee isavailable, receiving a second call from the caller device.
 18. Thecomputer-implemented method of claim 17, wherein the parameters for theprospective call are selected from the group consisting of (a) asuggested call time and (b) a suggested call time window.
 19. Thecomputer-implemented method of claim 18, wherein determining the currentcall status associated with the caller and the current call statusassociated with the callee is executed substantially within thesuggested call time window.
 20. The computer-implemented method of claim15, wherein receiving the first call originating from the caller devicefurther comprises causing display of a call subject.
 21. A computerprogram product for scheduling and initiating calls, the computerprogram product comprising at least one computer-readable storage mediumhaving computer-readable program code portions stored therein, thecomputer-readable program code portions comprising: an executableportion configured to receive a first call originating from a callerdevice; an executable portion configured to receive input accepting thefirst call; an executable portion configured to receive input requestingcontinuation of the first call; and an executable portion configured to,in response to receiving input requesting continuation of the firstcall, automatically generate and transmit a request for a prospectivecall, wherein the request for the prospective call (a) definesparameters for the prospective call and (b) identifies participants ofthe prospective call comprising at least a caller and a callee.
 22. Thecomputer program product of claim 21 further comprising an executableportion configured to, in response to a determination that (a) a currentcall status associated with the caller indicates that the caller isavailable and (b) a current call status associated with the calleeindicates that the callee is available, automatically initiate a secondcall from the callee device.
 23. The computer program product of claim21 further comprising an executable portion configured to; in responseto a determination that (a) a current call status associated with thecaller indicates that the caller is available and (b) a current callstatus associated with the callee indicates that the callee isavailable, receive a second call from the caller device.
 24. Thecomputer program product of claim 23, wherein the parameters for theprospective call are selected from the group consisting of (a) asuggested call time and (b) a suggested call time window.
 25. Thecomputer program product of claim 24, wherein determining the currentcall status associated with the caller and the current call statusassociated with the callee is executed substantially within thesuggested call time window.
 26. The computer program product of claim21, wherein receiving the first call originating from the caller devicefurther comprises causing display of a call subject.
 27. Acomputer-implemented method for scheduling, the computer-implementedmethod comprising: receiving input, via a caller device, initiating afirst call with a callee device; receiving input, via the caller device,requesting continuation of the first call; and in response to receivinginput requesting continuation of the first call, automaticallygenerating and transmitting a request for a prospective call, whereinthe request for the prospective call (a) defines parameters for theprospective call and (b) identifies participants of the prospective callcomprising at least a caller and a callee.
 28. The computer-implementedmethod of claim 27 further comprising, in response to a determinationthat (a) a current call status associated with the caller indicates thatthe caller is available and (b) a current call status associated withthe callee indicates that the callee is available, automaticallyinitiating a second call from the caller device.
 29. Thecomputer-implemented method of claim 27 further comprising, in responseto a determination that (a) a current call status associated with thecaller indicates that the caller is available and (b) a current callstatus associated with the callee indicates that the callee isavailable, receiving a second call from the callee device.
 30. Thecomputer-implemented method of claim 29, wherein the parameters for theprospective call are selected from the group consisting of (a) asuggested call time and (b) a suggested call time window.
 31. A computerprogram product for scheduling and initiating calls, the computerprogram product comprising at least one computer-readable storage mediumhaving computer-readable program code portions stored therein, thecomputer-readable program code portions comprising: an executableportion configured to receive input initiating a first call with acallee device; an executable portion configured to receive inputrequesting continuation of the first call; and an executable portionconfigured to, in response to receiving input requesting continuation ofthe first call, automatically generate and transmit a request for aprospective call, wherein the request for the prospective call (a)defines parameters for the prospective call and (b) identifiesparticipants of the prospective call comprising at least a caller and acallee.
 32. The computer program product of claim 31 further comprisingan executable portion configured to, in response to a determination that(a) a current call status associated with the caller indicates that thecaller is available and (b) a current call status associated with thecallee indicates that the callee is available, automatically initiate asecond call from the caller device.
 33. The computer program product ofclaim 31 further comprising an executable portion configured to, inresponse to a determination that (a) a current call status associatedwith the caller indicates that the caller is available and (b) a currentcall status associated with the callee indicates that the callee isavailable, receive a second call from the callee device.
 34. Thecomputer program product of claim 33, wherein the parameters for theprospective call are selected from the group consisting of (a) asuggested call time and (b) a suggested call time window.
 35. Acomputer-implemented method for urgent/insistent communication, thecomputer-implemented method comprising: receiving input, via a callerdevice, initiating a call with a callee device; receiving a notificationindicating that (a) the call was rejected by the callee device or (b)the current call status associated with the callee indicates that thecallee is unavailable; and in response to receiving the notificationindicating that (a) the call was rejected by the callee device or (b)the current call status associated with the callee indicates that thecallee is unavailable, automatically causing display of a notificationrequesting input as to whether the caller would like to (c) create anurgent/insistent message to the callee or (d) initiate anurgent/insistent call to the callee.
 36. The computer-implemented methodof claim 35 further comprising, in response to receiving inputrequesting an urgent/insistent message to the callee, (a) receivinginput creating an urgent/insistent message and (b) transmitting theurgent/insistent message to the callee.
 37. The computer-implementedmethod of claim 35 further comprising, in response to receiving inputrequesting initiation of an urgent/insistent call to the callee,automatically initiating an urgent/insistent call to the callee device,wherein the urgent/insistent call is connected to the callee deviceirrespective of the current call status associated with the calleeindicating that the callee is unavailable.
 38. The computer-implementedmethod of claim 35, wherein automatically causing display of thenotification is in response to a determination that the caller hasurgent/insistent communication rights with respect to callee.
 39. Acomputer program product for urgent/insistent communication, thecomputer program product comprising at least one computer-readablestorage medium having computer-readable program code portions storedtherein, the computer-readable program code portions comprising: anexecutable portion configured to receive input initiating a call with acallee device; an executable portion configured to receive anotification indicating that (a) the call was rejected by the calleedevice or (b) the current call status associated with the calleeindicates that the callee is unavailable; and an executable portionconfigured to, in response to receiving the notification indicating that(a) the call was rejected by the callee device or (b) the current callstatus associated with the callee indicates that the callee isunavailable, automatically cause display of a notification requestinginput as to whether the caller would like to (c) create anurgent/insistent message to the callee or (d) initiate anurgent/insistent call to the callee.
 40. The computer program product ofclaim 39 further comprising an executable portion configured to, inresponse to receiving input requesting an urgent/insistent message tothe callee, (a) receive input creating an urgent/insistent message and(b) transmit the urgent/insistent message to the callee.
 41. Thecomputer program product of claim 39 further comprising an executableportion configured to, in response to receiving input requestinginitiation of an urgent/insistent call to the callee, automaticallyinitiate an urgent/insistent call to the callee device, wherein theurgent/insistent call is connected to the callee device irrespective ofthe current call status associated with the callee indicating that thecallee is unavailable.
 42. The computer program product of claim 39,wherein automatically causing display of the notification is in responseto a determination that the caller has urgent/insistent communicationrights with respect to callee.